DIURNAL AND SEASONAL COMPARISONS OF ASSIMILATION, PHYLLODE CONDUCTANCE AND WATER POTENTIAL, OF 3 ACACIA AND ONE EUCALYPTUS SPECIES IN THE WET-DRY TROPICS OF AUSTRALIA
D. Eamus et S. Cole, DIURNAL AND SEASONAL COMPARISONS OF ASSIMILATION, PHYLLODE CONDUCTANCE AND WATER POTENTIAL, OF 3 ACACIA AND ONE EUCALYPTUS SPECIES IN THE WET-DRY TROPICS OF AUSTRALIA, Australian Journal of Botany, 45(2), 1997, pp. 275-290
Four species of tropical tree (Acacia auriculiformis Cunn. ex Benth.,
A. mangium Willd., A. crassicarpa Cunn. ex Benth. and Eucalyptus pelli
ta F.Muell.) were studied at a site on Melville Island, off the north
coast of the Northern Territory of Australia, in the wet-dry tropics.
Rates of light-saturated assimilation were measured every 2 months, in
the morning and afternoon, concurrently with g(s) (stomatal conductan
ce) and microclimate (air temperature, relative humidity and photosynt
hetic photon flux density). Phyllodes were also sampled far subsequent
nitrogen determination. Pre-dawn and diurnal phyllode water potential
s were measured at the end of the wet and dry seasons. Tree height and
canopy area were recorded at the end of 50 months of growth. Assimila
tion was found to decline substantially in the afternoon compared with
the morning in the dry season but not the wet season. This was not du
e to diurnal declines in phyllode water potential but was attributed p
artially to decreased g(s) resulting from increased leaf-to-air vapour
pressure difference. However, an interpretation of the C-i/C-a (ratio
of internal to ambient CO2 concentrations) data suggested that additi
onal factors, other than g(s), may be involved in causing the afternoo
n decline in assimilation rate. There was a linear relationship betwee
n pre-dawn water potential and A(max) (maximum assimilation) and an in
verse relationship between A(max) and tree height, a result attributed
to differences between species in allocation of carbon within the tre
e.